Merge changes from topic "revert-2770886-AidlAudioHalModuleConfig-FQCMWOWMCH" into main am: 03a2fbc6a3 am: fb1d459f09 am: 9868600b48 am: 9ed9a05578 am: 0cfcc0f2f9

Original change: https://android-review.googlesource.com/c/platform/hardware/interfaces/+/2786757

Change-Id: I6b5a7c2db6ee69a63abc9897bb9c1716157f641e
Signed-off-by: Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com>
This commit is contained in:
Mikhail Naganov 2023-10-14 01:35:36 +00:00 committed by Automerger Merge Worker
commit 1261ff4f9b
25 changed files with 412 additions and 795 deletions

View file

@ -12,7 +12,6 @@ cc_defaults {
vendor: true,
shared_libs: [
"libalsautilsv2",
"libaudio_aidl_conversion_common_ndk",
"libaudioaidlcommon",
"libaudioutils",
"libbase",
@ -20,8 +19,6 @@ cc_defaults {
"libcutils",
"libfmq",
"libnbaio_mono",
"liblog",
"libmedia_helper",
"libstagefright_foundation",
"libtinyalsav2",
"libutils",
@ -34,9 +31,6 @@ cc_defaults {
"libaudioaidl_headers",
"libxsdc-utils",
],
cflags: [
"-DBACKEND_NDK",
],
}
cc_library {
@ -93,7 +87,6 @@ cc_library {
"Stream.cpp",
"StreamSwitcher.cpp",
"Telephony.cpp",
"XsdcConversion.cpp",
"alsa/Mixer.cpp",
"alsa/ModuleAlsa.cpp",
"alsa/StreamAlsa.cpp",
@ -194,7 +187,6 @@ cc_test {
"libbase",
"libbinder_ndk",
"libcutils",
"libfmq",
"libmedia_helper",
"libstagefright_foundation",
"libutils",
@ -207,11 +199,9 @@ cc_test {
],
generated_sources: [
"audio_policy_configuration_aidl_default",
"audio_policy_engine_configuration_aidl_default",
],
generated_headers: [
"audio_policy_configuration_aidl_default",
"audio_policy_engine_configuration_aidl_default",
],
srcs: [
"AudioPolicyConfigXmlConverter.cpp",

View file

@ -30,7 +30,6 @@
#include "core-impl/AidlConversionXsdc.h"
#include "core-impl/AudioPolicyConfigXmlConverter.h"
#include "core-impl/XsdcConversion.h"
using aidl::android::media::audio::common::AudioFormatDescription;
using aidl::android::media::audio::common::AudioHalEngineConfig;
@ -38,39 +37,60 @@ using aidl::android::media::audio::common::AudioHalVolumeCurve;
using aidl::android::media::audio::common::AudioHalVolumeGroup;
using aidl::android::media::audio::common::AudioStreamType;
namespace ap_xsd = android::audio::policy::configuration;
namespace xsd = android::audio::policy::configuration;
namespace aidl::android::hardware::audio::core::internal {
static const int kDefaultVolumeIndexMin = 0;
static const int kDefaultVolumeIndexMax = 100;
static const int KVolumeIndexDeferredToAudioService = -1;
/**
* Valid curve points take the form "<index>,<attenuationMb>", where the index
* must be in the range [0,100]. kInvalidCurvePointIndex is used to indicate
* that a point was formatted incorrectly (e.g. if a vendor accidentally typed a
* '.' instead of a ',' in their XML) -- using such a curve point will result in
* failed VTS tests.
*/
static const int8_t kInvalidCurvePointIndex = -1;
ConversionResult<AudioHalVolumeCurve> AudioPolicyConfigXmlConverter::convertVolumeCurveToAidl(
const ap_xsd::Volume& xsdcVolumeCurve) {
AudioHalVolumeCurve::CurvePoint AudioPolicyConfigXmlConverter::convertCurvePointToAidl(
const std::string& xsdcCurvePoint) {
AudioHalVolumeCurve::CurvePoint aidlCurvePoint{};
if (sscanf(xsdcCurvePoint.c_str(), "%" SCNd8 ",%d", &aidlCurvePoint.index,
&aidlCurvePoint.attenuationMb) != 2) {
aidlCurvePoint.index = kInvalidCurvePointIndex;
}
return aidlCurvePoint;
}
AudioHalVolumeCurve AudioPolicyConfigXmlConverter::convertVolumeCurveToAidl(
const xsd::Volume& xsdcVolumeCurve) {
AudioHalVolumeCurve aidlVolumeCurve;
aidlVolumeCurve.deviceCategory =
static_cast<AudioHalVolumeCurve::DeviceCategory>(xsdcVolumeCurve.getDeviceCategory());
if (xsdcVolumeCurve.hasRef()) {
if (mVolumesReferenceMap.empty()) {
mVolumesReferenceMap = generateReferenceMap<ap_xsd::Volumes, ap_xsd::Reference>(
mVolumesReferenceMap = generateReferenceMap<xsd::Volumes, xsd::Reference>(
getXsdcConfig()->getVolumes());
}
aidlVolumeCurve.curvePoints = VALUE_OR_FATAL(
(convertCollectionToAidl<std::string, AudioHalVolumeCurve::CurvePoint>(
aidlVolumeCurve.curvePoints =
convertCollectionToAidlUnchecked<std::string, AudioHalVolumeCurve::CurvePoint>(
mVolumesReferenceMap.at(xsdcVolumeCurve.getRef()).getPoint(),
&convertCurvePointToAidl)));
std::bind(&AudioPolicyConfigXmlConverter::convertCurvePointToAidl, this,
std::placeholders::_1));
} else {
aidlVolumeCurve.curvePoints = VALUE_OR_FATAL(
(convertCollectionToAidl<std::string, AudioHalVolumeCurve::CurvePoint>(
xsdcVolumeCurve.getPoint(), &convertCurvePointToAidl)));
aidlVolumeCurve.curvePoints =
convertCollectionToAidlUnchecked<std::string, AudioHalVolumeCurve::CurvePoint>(
xsdcVolumeCurve.getPoint(),
std::bind(&AudioPolicyConfigXmlConverter::convertCurvePointToAidl, this,
std::placeholders::_1));
}
return aidlVolumeCurve;
}
void AudioPolicyConfigXmlConverter::mapStreamToVolumeCurve(const ap_xsd::Volume& xsdcVolumeCurve) {
void AudioPolicyConfigXmlConverter::mapStreamToVolumeCurve(const xsd::Volume& xsdcVolumeCurve) {
mStreamToVolumeCurvesMap[xsdcVolumeCurve.getStream()].push_back(
VALUE_OR_FATAL(convertVolumeCurveToAidl(xsdcVolumeCurve)));
convertVolumeCurveToAidl(xsdcVolumeCurve));
}
const SurroundSoundConfig& AudioPolicyConfigXmlConverter::getSurroundSoundConfig() {
@ -89,11 +109,6 @@ const SurroundSoundConfig& AudioPolicyConfigXmlConverter::getSurroundSoundConfig
return aidlSurroundSoundConfig;
}
std::unique_ptr<AudioPolicyConfigXmlConverter::ModuleConfigs>
AudioPolicyConfigXmlConverter::releaseModuleConfigs() {
return std::move(mModuleConfigurations);
}
const AudioHalEngineConfig& AudioPolicyConfigXmlConverter::getAidlEngineConfig() {
if (mAidlEngineConfig.volumeGroups.empty() && getXsdcConfig() &&
getXsdcConfig()->hasVolumes()) {
@ -145,8 +160,8 @@ const SurroundSoundConfig& AudioPolicyConfigXmlConverter::getDefaultSurroundSoun
void AudioPolicyConfigXmlConverter::mapStreamsToVolumeCurves() {
if (getXsdcConfig()->hasVolumes()) {
for (const ap_xsd::Volumes& xsdcWrapperType : getXsdcConfig()->getVolumes()) {
for (const ap_xsd::Volume& xsdcVolume : xsdcWrapperType.getVolume()) {
for (const xsd::Volumes& xsdcWrapperType : getXsdcConfig()->getVolumes()) {
for (const xsd::Volume& xsdcVolume : xsdcWrapperType.getVolume()) {
mapStreamToVolumeCurve(xsdcVolume);
}
}
@ -156,7 +171,7 @@ void AudioPolicyConfigXmlConverter::mapStreamsToVolumeCurves() {
void AudioPolicyConfigXmlConverter::addVolumeGroupstoEngineConfig() {
for (const auto& [xsdcStream, volumeCurves] : mStreamToVolumeCurvesMap) {
AudioHalVolumeGroup volumeGroup;
volumeGroup.name = ap_xsd::toString(xsdcStream);
volumeGroup.name = xsd::toString(xsdcStream);
if (static_cast<int>(xsdcStream) >= AUDIO_STREAM_PUBLIC_CNT) {
volumeGroup.minIndex = kDefaultVolumeIndexMin;
volumeGroup.maxIndex = kDefaultVolumeIndexMax;
@ -175,18 +190,4 @@ void AudioPolicyConfigXmlConverter::parseVolumes() {
addVolumeGroupstoEngineConfig();
}
}
void AudioPolicyConfigXmlConverter::init() {
if (!getXsdcConfig()->hasModules()) return;
for (const ap_xsd::Modules& xsdcModulesType : getXsdcConfig()->getModules()) {
if (!xsdcModulesType.has_module()) continue;
for (const ap_xsd::Modules::Module& xsdcModule : xsdcModulesType.get_module()) {
// 'primary' in the XML schema used by HIDL is equivalent to 'default' module.
const std::string name =
xsdcModule.getName() != "primary" ? xsdcModule.getName() : "default";
mModuleConfigurations->emplace_back(
name, VALUE_OR_FATAL(convertModuleConfigToAidl(xsdcModule)));
}
}
}
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -43,7 +43,6 @@ using aidl::android::media::audio::common::AudioProfile;
using aidl::android::media::audio::common::Int;
using aidl::android::media::audio::common::MicrophoneInfo;
using aidl::android::media::audio::common::PcmType;
using Configuration = aidl::android::hardware::audio::core::Module::Configuration;
namespace aidl::android::hardware::audio::core::internal {
@ -678,19 +677,4 @@ std::unique_ptr<Configuration> getBluetoothConfiguration() {
return std::make_unique<Configuration>(configuration);
}
std::unique_ptr<Module::Configuration> getConfiguration(Module::Type moduleType) {
switch (moduleType) {
case Module::Type::DEFAULT:
return getPrimaryConfiguration();
case Module::Type::R_SUBMIX:
return getRSubmixConfiguration();
case Module::Type::STUB:
return getStubConfiguration();
case Module::Type::USB:
return getUsbConfiguration();
case Module::Type::BLUETOOTH:
return getBluetoothConfiguration();
}
}
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -20,14 +20,11 @@
#include <functional>
#include <unordered_map>
#define LOG_TAG "AHAL_Config"
#include <aidl/android/media/audio/common/AudioFlag.h>
#include <aidl/android/media/audio/common/AudioHalEngineConfig.h>
#include <aidl/android/media/audio/common/AudioProductStrategyType.h>
#include <android-base/logging.h>
#include "core-impl/EngineConfigXmlConverter.h"
#include "core-impl/XsdcConversion.h"
using aidl::android::media::audio::common::AudioAttributes;
using aidl::android::media::audio::common::AudioContentType;
@ -43,13 +40,20 @@ using aidl::android::media::audio::common::AudioProductStrategyType;
using aidl::android::media::audio::common::AudioSource;
using aidl::android::media::audio::common::AudioStreamType;
using aidl::android::media::audio::common::AudioUsage;
using ::android::BAD_VALUE;
using ::android::base::unexpected;
namespace eng_xsd = android::audio::policy::engine::configuration;
namespace xsd = android::audio::policy::engine::configuration;
namespace aidl::android::hardware::audio::core::internal {
/**
* Valid curve points take the form "<index>,<attenuationMb>", where the index
* must be in the range [0,100]. kInvalidCurvePointIndex is used to indicate
* that a point was formatted incorrectly (e.g. if a vendor accidentally typed a
* '.' instead of a ',' in their XML)-- using such a curve point will result in
* failed VTS tests.
*/
static const int8_t kInvalidCurvePointIndex = -1;
void EngineConfigXmlConverter::initProductStrategyMap() {
#define STRATEGY_ENTRY(name) {"STRATEGY_" #name, static_cast<int>(AudioProductStrategyType::name)}
@ -64,7 +68,7 @@ void EngineConfigXmlConverter::initProductStrategyMap() {
#undef STRATEGY_ENTRY
}
ConversionResult<int> EngineConfigXmlConverter::convertProductStrategyNameToAidl(
int EngineConfigXmlConverter::convertProductStrategyNameToAidl(
const std::string& xsdcProductStrategyName) {
const auto [it, success] = mProductStrategyMap.insert(
std::make_pair(xsdcProductStrategyName, mNextVendorStrategy));
@ -81,12 +85,12 @@ bool isDefaultAudioAttributes(const AudioAttributes& attributes) {
(attributes.tags.empty()));
}
ConversionResult<AudioAttributes> EngineConfigXmlConverter::convertAudioAttributesToAidl(
const eng_xsd::AttributesType& xsdcAudioAttributes) {
AudioAttributes EngineConfigXmlConverter::convertAudioAttributesToAidl(
const xsd::AttributesType& xsdcAudioAttributes) {
if (xsdcAudioAttributes.hasAttributesRef()) {
if (mAttributesReferenceMap.empty()) {
mAttributesReferenceMap =
generateReferenceMap<eng_xsd::AttributesRef, eng_xsd::AttributesRefType>(
generateReferenceMap<xsd::AttributesRef, xsd::AttributesRefType>(
getXsdcConfig()->getAttributesRef());
}
return convertAudioAttributesToAidl(
@ -107,16 +111,16 @@ ConversionResult<AudioAttributes> EngineConfigXmlConverter::convertAudioAttribut
static_cast<AudioSource>(xsdcAudioAttributes.getFirstSource()->getValue());
}
if (xsdcAudioAttributes.hasFlags()) {
std::vector<eng_xsd::FlagType> xsdcFlagTypeVec =
std::vector<xsd::FlagType> xsdcFlagTypeVec =
xsdcAudioAttributes.getFirstFlags()->getValue();
for (const eng_xsd::FlagType& xsdcFlagType : xsdcFlagTypeVec) {
if (xsdcFlagType != eng_xsd::FlagType::AUDIO_FLAG_NONE) {
for (const xsd::FlagType& xsdcFlagType : xsdcFlagTypeVec) {
if (xsdcFlagType != xsd::FlagType::AUDIO_FLAG_NONE) {
aidlAudioAttributes.flags |= 1 << (static_cast<int>(xsdcFlagType) - 1);
}
}
}
if (xsdcAudioAttributes.hasBundle()) {
const eng_xsd::BundleType* xsdcBundle = xsdcAudioAttributes.getFirstBundle();
const xsd::BundleType* xsdcBundle = xsdcAudioAttributes.getFirstBundle();
aidlAudioAttributes.tags[0] = xsdcBundle->getKey() + "=" + xsdcBundle->getValue();
}
if (isDefaultAudioAttributes(aidlAudioAttributes)) {
@ -125,54 +129,53 @@ ConversionResult<AudioAttributes> EngineConfigXmlConverter::convertAudioAttribut
return aidlAudioAttributes;
}
ConversionResult<AudioHalAttributesGroup> EngineConfigXmlConverter::convertAttributesGroupToAidl(
const eng_xsd::AttributesGroup& xsdcAttributesGroup) {
AudioHalAttributesGroup EngineConfigXmlConverter::convertAttributesGroupToAidl(
const xsd::AttributesGroup& xsdcAttributesGroup) {
AudioHalAttributesGroup aidlAttributesGroup;
static const int kStreamTypeEnumOffset =
static_cast<int>(eng_xsd::Stream::AUDIO_STREAM_VOICE_CALL) -
static_cast<int>(xsd::Stream::AUDIO_STREAM_VOICE_CALL) -
static_cast<int>(AudioStreamType::VOICE_CALL);
aidlAttributesGroup.streamType = static_cast<AudioStreamType>(
static_cast<int>(xsdcAttributesGroup.getStreamType()) - kStreamTypeEnumOffset);
aidlAttributesGroup.volumeGroupName = xsdcAttributesGroup.getVolumeGroup();
if (xsdcAttributesGroup.hasAttributes_optional()) {
aidlAttributesGroup.attributes =
VALUE_OR_FATAL((convertCollectionToAidl<eng_xsd::AttributesType, AudioAttributes>(
convertCollectionToAidlUnchecked<xsd::AttributesType, AudioAttributes>(
xsdcAttributesGroup.getAttributes_optional(),
std::bind(&EngineConfigXmlConverter::convertAudioAttributesToAidl, this,
std::placeholders::_1))));
std::placeholders::_1));
} else if (xsdcAttributesGroup.hasContentType_optional() ||
xsdcAttributesGroup.hasUsage_optional() ||
xsdcAttributesGroup.hasSource_optional() ||
xsdcAttributesGroup.hasFlags_optional() ||
xsdcAttributesGroup.hasBundle_optional()) {
aidlAttributesGroup.attributes.push_back(VALUE_OR_FATAL(convertAudioAttributesToAidl(
eng_xsd::AttributesType(xsdcAttributesGroup.getContentType_optional(),
xsdcAttributesGroup.getUsage_optional(),
xsdcAttributesGroup.getSource_optional(),
xsdcAttributesGroup.getFlags_optional(),
xsdcAttributesGroup.getBundle_optional(), std::nullopt))));
aidlAttributesGroup.attributes.push_back(convertAudioAttributesToAidl(xsd::AttributesType(
xsdcAttributesGroup.getContentType_optional(),
xsdcAttributesGroup.getUsage_optional(), xsdcAttributesGroup.getSource_optional(),
xsdcAttributesGroup.getFlags_optional(), xsdcAttributesGroup.getBundle_optional(),
std::nullopt)));
} else {
LOG(ERROR) << __func__ << " Review Audio Policy config: no audio attributes provided for "
<< aidlAttributesGroup.toString();
return unexpected(BAD_VALUE);
// do nothing;
// TODO: check if this is valid or if we should treat as an error.
// Currently, attributes are not mandatory in schema, but an AttributesGroup
// without attributes does not make much sense.
}
return aidlAttributesGroup;
}
ConversionResult<AudioHalProductStrategy> EngineConfigXmlConverter::convertProductStrategyToAidl(
const eng_xsd::ProductStrategies::ProductStrategy& xsdcProductStrategy) {
AudioHalProductStrategy EngineConfigXmlConverter::convertProductStrategyToAidl(
const xsd::ProductStrategies::ProductStrategy& xsdcProductStrategy) {
AudioHalProductStrategy aidlProductStrategy;
aidlProductStrategy.id =
VALUE_OR_FATAL(convertProductStrategyNameToAidl(xsdcProductStrategy.getName()));
aidlProductStrategy.id = convertProductStrategyNameToAidl(xsdcProductStrategy.getName());
if (xsdcProductStrategy.hasAttributesGroup()) {
aidlProductStrategy.attributesGroups = VALUE_OR_FATAL(
(convertCollectionToAidl<eng_xsd::AttributesGroup, AudioHalAttributesGroup>(
aidlProductStrategy.attributesGroups =
convertCollectionToAidlUnchecked<xsd::AttributesGroup, AudioHalAttributesGroup>(
xsdcProductStrategy.getAttributesGroup(),
std::bind(&EngineConfigXmlConverter::convertAttributesGroupToAidl, this,
std::placeholders::_1))));
std::placeholders::_1));
}
if ((mDefaultProductStrategyId != std::nullopt) && (mDefaultProductStrategyId.value() == -1)) {
mDefaultProductStrategyId = aidlProductStrategy.id;
@ -180,42 +183,82 @@ ConversionResult<AudioHalProductStrategy> EngineConfigXmlConverter::convertProdu
return aidlProductStrategy;
}
ConversionResult<AudioHalVolumeCurve> EngineConfigXmlConverter::convertVolumeCurveToAidl(
const eng_xsd::Volume& xsdcVolumeCurve) {
AudioHalVolumeCurve::CurvePoint EngineConfigXmlConverter::convertCurvePointToAidl(
const std::string& xsdcCurvePoint) {
AudioHalVolumeCurve::CurvePoint aidlCurvePoint{};
if (sscanf(xsdcCurvePoint.c_str(), "%" SCNd8 ",%d", &aidlCurvePoint.index,
&aidlCurvePoint.attenuationMb) != 2) {
aidlCurvePoint.index = kInvalidCurvePointIndex;
}
return aidlCurvePoint;
}
AudioHalVolumeCurve EngineConfigXmlConverter::convertVolumeCurveToAidl(
const xsd::Volume& xsdcVolumeCurve) {
AudioHalVolumeCurve aidlVolumeCurve;
aidlVolumeCurve.deviceCategory =
static_cast<AudioHalVolumeCurve::DeviceCategory>(xsdcVolumeCurve.getDeviceCategory());
if (xsdcVolumeCurve.hasRef()) {
if (mVolumesReferenceMap.empty()) {
mVolumesReferenceMap = generateReferenceMap<eng_xsd::VolumesType, eng_xsd::VolumeRef>(
mVolumesReferenceMap = generateReferenceMap<xsd::VolumesType, xsd::VolumeRef>(
getXsdcConfig()->getVolumes());
}
aidlVolumeCurve.curvePoints = VALUE_OR_FATAL(
(convertCollectionToAidl<std::string, AudioHalVolumeCurve::CurvePoint>(
aidlVolumeCurve.curvePoints =
convertCollectionToAidlUnchecked<std::string, AudioHalVolumeCurve::CurvePoint>(
mVolumesReferenceMap.at(xsdcVolumeCurve.getRef()).getPoint(),
&convertCurvePointToAidl)));
std::bind(&EngineConfigXmlConverter::convertCurvePointToAidl, this,
std::placeholders::_1));
} else {
aidlVolumeCurve.curvePoints = VALUE_OR_FATAL(
(convertCollectionToAidl<std::string, AudioHalVolumeCurve::CurvePoint>(
xsdcVolumeCurve.getPoint(), &convertCurvePointToAidl)));
aidlVolumeCurve.curvePoints =
convertCollectionToAidlUnchecked<std::string, AudioHalVolumeCurve::CurvePoint>(
xsdcVolumeCurve.getPoint(),
std::bind(&EngineConfigXmlConverter::convertCurvePointToAidl, this,
std::placeholders::_1));
}
return aidlVolumeCurve;
}
ConversionResult<AudioHalVolumeGroup> EngineConfigXmlConverter::convertVolumeGroupToAidl(
const eng_xsd::VolumeGroupsType::VolumeGroup& xsdcVolumeGroup) {
AudioHalVolumeGroup EngineConfigXmlConverter::convertVolumeGroupToAidl(
const xsd::VolumeGroupsType::VolumeGroup& xsdcVolumeGroup) {
AudioHalVolumeGroup aidlVolumeGroup;
aidlVolumeGroup.name = xsdcVolumeGroup.getName();
aidlVolumeGroup.minIndex = xsdcVolumeGroup.getIndexMin();
aidlVolumeGroup.maxIndex = xsdcVolumeGroup.getIndexMax();
aidlVolumeGroup.volumeCurves =
VALUE_OR_FATAL((convertCollectionToAidl<eng_xsd::Volume, AudioHalVolumeCurve>(
convertCollectionToAidlUnchecked<xsd::Volume, AudioHalVolumeCurve>(
xsdcVolumeGroup.getVolume(),
std::bind(&EngineConfigXmlConverter::convertVolumeCurveToAidl, this,
std::placeholders::_1))));
std::placeholders::_1));
return aidlVolumeGroup;
}
AudioHalCapCriterion EngineConfigXmlConverter::convertCapCriterionToAidl(
const xsd::CriterionType& xsdcCriterion) {
AudioHalCapCriterion aidlCapCriterion;
aidlCapCriterion.name = xsdcCriterion.getName();
aidlCapCriterion.criterionTypeName = xsdcCriterion.getType();
aidlCapCriterion.defaultLiteralValue = xsdcCriterion.get_default();
return aidlCapCriterion;
}
std::string EngineConfigXmlConverter::convertCriterionTypeValueToAidl(
const xsd::ValueType& xsdcCriterionTypeValue) {
return xsdcCriterionTypeValue.getLiteral();
}
AudioHalCapCriterionType EngineConfigXmlConverter::convertCapCriterionTypeToAidl(
const xsd::CriterionTypeType& xsdcCriterionType) {
AudioHalCapCriterionType aidlCapCriterionType;
aidlCapCriterionType.name = xsdcCriterionType.getName();
aidlCapCriterionType.isInclusive = !(static_cast<bool>(xsdcCriterionType.getType()));
aidlCapCriterionType.values =
convertWrappedCollectionToAidlUnchecked<xsd::ValuesType, xsd::ValueType, std::string>(
xsdcCriterionType.getValues(), &xsd::ValuesType::getValue,
std::bind(&EngineConfigXmlConverter::convertCriterionTypeValueToAidl, this,
std::placeholders::_1));
return aidlCapCriterionType;
}
AudioHalEngineConfig& EngineConfigXmlConverter::getAidlEngineConfig() {
return mAidlEngineConfig;
}
@ -223,42 +266,39 @@ AudioHalEngineConfig& EngineConfigXmlConverter::getAidlEngineConfig() {
void EngineConfigXmlConverter::init() {
initProductStrategyMap();
if (getXsdcConfig()->hasProductStrategies()) {
mAidlEngineConfig.productStrategies = VALUE_OR_FATAL(
(convertWrappedCollectionToAidl<eng_xsd::ProductStrategies,
eng_xsd::ProductStrategies::ProductStrategy,
mAidlEngineConfig.productStrategies =
convertWrappedCollectionToAidlUnchecked<xsd::ProductStrategies,
xsd::ProductStrategies::ProductStrategy,
AudioHalProductStrategy>(
getXsdcConfig()->getProductStrategies(),
&eng_xsd::ProductStrategies::getProductStrategy,
&xsd::ProductStrategies::getProductStrategy,
std::bind(&EngineConfigXmlConverter::convertProductStrategyToAidl, this,
std::placeholders::_1))));
std::placeholders::_1));
if (mDefaultProductStrategyId) {
mAidlEngineConfig.defaultProductStrategyId = mDefaultProductStrategyId.value();
}
}
if (getXsdcConfig()->hasVolumeGroups()) {
mAidlEngineConfig.volumeGroups = VALUE_OR_FATAL(
(convertWrappedCollectionToAidl<eng_xsd::VolumeGroupsType,
eng_xsd::VolumeGroupsType::VolumeGroup,
AudioHalVolumeGroup>(
getXsdcConfig()->getVolumeGroups(),
&eng_xsd::VolumeGroupsType::getVolumeGroup,
mAidlEngineConfig.volumeGroups = convertWrappedCollectionToAidlUnchecked<
xsd::VolumeGroupsType, xsd::VolumeGroupsType::VolumeGroup, AudioHalVolumeGroup>(
getXsdcConfig()->getVolumeGroups(), &xsd::VolumeGroupsType::getVolumeGroup,
std::bind(&EngineConfigXmlConverter::convertVolumeGroupToAidl, this,
std::placeholders::_1))));
std::placeholders::_1));
}
if (getXsdcConfig()->hasCriteria() && getXsdcConfig()->hasCriterion_types()) {
AudioHalEngineConfig::CapSpecificConfig capSpecificConfig;
capSpecificConfig.criteria = VALUE_OR_FATAL(
(convertWrappedCollectionToAidl<eng_xsd::CriteriaType, eng_xsd::CriterionType,
capSpecificConfig.criteria =
convertWrappedCollectionToAidlUnchecked<xsd::CriteriaType, xsd::CriterionType,
AudioHalCapCriterion>(
getXsdcConfig()->getCriteria(), &eng_xsd::CriteriaType::getCriterion,
&convertCapCriterionToAidl)));
capSpecificConfig.criterionTypes =
VALUE_OR_FATAL((convertWrappedCollectionToAidl<eng_xsd::CriterionTypesType,
eng_xsd::CriterionTypeType,
AudioHalCapCriterionType>(
getXsdcConfig()->getCriterion_types(),
&eng_xsd::CriterionTypesType::getCriterion_type,
&convertCapCriterionTypeToAidl)));
getXsdcConfig()->getCriteria(), &xsd::CriteriaType::getCriterion,
std::bind(&EngineConfigXmlConverter::convertCapCriterionToAidl, this,
std::placeholders::_1));
capSpecificConfig.criterionTypes = convertWrappedCollectionToAidlUnchecked<
xsd::CriterionTypesType, xsd::CriterionTypeType, AudioHalCapCriterionType>(
getXsdcConfig()->getCriterion_types(), &xsd::CriterionTypesType::getCriterion_type,
std::bind(&EngineConfigXmlConverter::convertCapCriterionTypeToAidl, this,
std::placeholders::_1));
mAidlEngineConfig.capSpecificConfig = capSpecificConfig;
}
}
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -25,7 +25,6 @@
#include <android/binder_ibinder_platform.h>
#include <error/expected_utils.h>
#include "core-impl/Configuration.h"
#include "core-impl/Module.h"
#include "core-impl/ModuleBluetooth.h"
#include "core-impl/ModulePrimary.h"
@ -133,36 +132,21 @@ bool findAudioProfile(const AudioPort& port, const AudioFormatDescription& forma
} // namespace
// static
std::shared_ptr<Module> Module::createInstance(Type type, std::unique_ptr<Configuration>&& config) {
std::shared_ptr<Module> Module::createInstance(Type type) {
switch (type) {
case Type::DEFAULT:
return ndk::SharedRefBase::make<ModulePrimary>(std::move(config));
return ndk::SharedRefBase::make<ModulePrimary>();
case Type::R_SUBMIX:
return ndk::SharedRefBase::make<ModuleRemoteSubmix>(std::move(config));
return ndk::SharedRefBase::make<ModuleRemoteSubmix>();
case Type::STUB:
return ndk::SharedRefBase::make<ModuleStub>(std::move(config));
return ndk::SharedRefBase::make<ModuleStub>();
case Type::USB:
return ndk::SharedRefBase::make<ModuleUsb>(std::move(config));
return ndk::SharedRefBase::make<ModuleUsb>();
case Type::BLUETOOTH:
return ndk::SharedRefBase::make<ModuleBluetooth>(std::move(config));
return ndk::SharedRefBase::make<ModuleBluetooth>();
}
}
// static
std::optional<Module::Type> Module::typeFromString(const std::string& type) {
if (type == "default")
return Module::Type::DEFAULT;
else if (type == "r_submix")
return Module::Type::R_SUBMIX;
else if (type == "stub")
return Module::Type::STUB;
else if (type == "usb")
return Module::Type::USB;
else if (type == "bluetooth")
return Module::Type::BLUETOOTH;
return {};
}
std::ostream& operator<<(std::ostream& os, Module::Type t) {
switch (t) {
case Module::Type::DEFAULT:
@ -337,8 +321,26 @@ std::set<int32_t> Module::portIdsFromPortConfigIds(C portConfigIds) {
return result;
}
std::unique_ptr<Module::Configuration> Module::initializeConfig() {
return internal::getConfiguration(getType());
std::unique_ptr<internal::Configuration> Module::initializeConfig() {
std::unique_ptr<internal::Configuration> config;
switch (getType()) {
case Type::DEFAULT:
config = std::move(internal::getPrimaryConfiguration());
break;
case Type::R_SUBMIX:
config = std::move(internal::getRSubmixConfiguration());
break;
case Type::STUB:
config = std::move(internal::getStubConfiguration());
break;
case Type::USB:
config = std::move(internal::getUsbConfiguration());
break;
case Type::BLUETOOTH:
config = std::move(internal::getBluetoothConfiguration());
break;
}
return config;
}
std::vector<AudioRoute*> Module::getAudioRoutesForAudioPortImpl(int32_t portId) {
@ -353,7 +355,7 @@ std::vector<AudioRoute*> Module::getAudioRoutesForAudioPortImpl(int32_t portId)
return result;
}
Module::Configuration& Module::getConfig() {
internal::Configuration& Module::getConfig() {
if (!mConfig) {
mConfig = std::move(initializeConfig());
}
@ -800,7 +802,7 @@ ndk::ScopedAStatus Module::openInputStream(const OpenInputStreamArguments& in_ar
context.fillDescriptor(&_aidl_return->desc);
std::shared_ptr<StreamIn> stream;
RETURN_STATUS_IF_ERROR(createInputStream(std::move(context), in_args.sinkMetadata,
getConfig().microphones, &stream));
mConfig->microphones, &stream));
StreamWrapper streamWrapper(stream);
if (auto patchIt = mPatches.find(in_args.portConfigId); patchIt != mPatches.end()) {
RETURN_STATUS_IF_ERROR(

View file

@ -16,9 +16,9 @@
#define LOG_TAG "AHAL_Telephony"
#include <android-base/logging.h>
#include <android/binder_to_string.h>
#include <Utils.h>
#include <android/binder_to_string.h>
#include "core-impl/Telephony.h"

View file

@ -1,444 +0,0 @@
#include <inttypes.h>
#include <unordered_set>
#define LOG_TAG "AHAL_Config"
#include <android-base/logging.h>
#include <android-base/strings.h>
#include <aidl/android/media/audio/common/AudioPort.h>
#include <aidl/android/media/audio/common/AudioPortConfig.h>
#include <media/AidlConversionCppNdk.h>
#include <media/TypeConverter.h>
#include "core-impl/XmlConverter.h"
#include "core-impl/XsdcConversion.h"
using aidl::android::media::audio::common::AudioChannelLayout;
using aidl::android::media::audio::common::AudioDevice;
using aidl::android::media::audio::common::AudioDeviceAddress;
using aidl::android::media::audio::common::AudioDeviceDescription;
using aidl::android::media::audio::common::AudioDeviceType;
using aidl::android::media::audio::common::AudioFormatDescription;
using aidl::android::media::audio::common::AudioFormatType;
using aidl::android::media::audio::common::AudioGain;
using aidl::android::media::audio::common::AudioHalCapCriterion;
using aidl::android::media::audio::common::AudioHalCapCriterionType;
using aidl::android::media::audio::common::AudioHalVolumeCurve;
using aidl::android::media::audio::common::AudioIoFlags;
using aidl::android::media::audio::common::AudioPort;
using aidl::android::media::audio::common::AudioPortConfig;
using aidl::android::media::audio::common::AudioPortDeviceExt;
using aidl::android::media::audio::common::AudioPortExt;
using aidl::android::media::audio::common::AudioPortMixExt;
using aidl::android::media::audio::common::AudioProfile;
using ::android::BAD_VALUE;
using ::android::base::unexpected;
namespace ap_xsd = android::audio::policy::configuration;
namespace eng_xsd = android::audio::policy::engine::configuration;
namespace aidl::android::hardware::audio::core::internal {
inline ConversionResult<std::string> assertNonEmpty(const std::string& s) {
if (s.empty()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: "
<< " empty string is not valid.";
return unexpected(BAD_VALUE);
}
return s;
}
#define NON_EMPTY_STRING_OR_FATAL(s) VALUE_OR_FATAL(assertNonEmpty(s))
ConversionResult<AudioFormatDescription> convertAudioFormatToAidl(const std::string& xsdcFormat) {
audio_format_t legacyFormat = ::android::formatFromString(xsdcFormat, AUDIO_FORMAT_DEFAULT);
ConversionResult<AudioFormatDescription> result =
legacy2aidl_audio_format_t_AudioFormatDescription(legacyFormat);
if ((legacyFormat == AUDIO_FORMAT_DEFAULT && xsdcFormat.compare("AUDIO_FORMAT_DEFAULT") != 0) ||
!result.ok()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: " << xsdcFormat
<< " is not a valid audio format.";
return unexpected(BAD_VALUE);
}
return result;
}
std::unordered_set<std::string> getAttachedDevices(const ap_xsd::Modules::Module& moduleConfig) {
std::unordered_set<std::string> attachedDeviceSet;
if (moduleConfig.hasAttachedDevices()) {
for (const ap_xsd::AttachedDevices& attachedDevices : moduleConfig.getAttachedDevices()) {
if (attachedDevices.hasItem()) {
attachedDeviceSet.insert(attachedDevices.getItem().begin(),
attachedDevices.getItem().end());
}
}
}
return attachedDeviceSet;
}
ConversionResult<AudioDeviceDescription> convertDeviceTypeToAidl(const std::string& xType) {
audio_devices_t legacyDeviceType = AUDIO_DEVICE_NONE;
::android::DeviceConverter::fromString(xType, legacyDeviceType);
ConversionResult<AudioDeviceDescription> result =
legacy2aidl_audio_devices_t_AudioDeviceDescription(legacyDeviceType);
if ((legacyDeviceType == AUDIO_DEVICE_NONE) || !result.ok()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: " << xType
<< " is not a valid device type.";
return unexpected(BAD_VALUE);
}
return result;
}
ConversionResult<AudioDevice> createAudioDevice(
const ap_xsd::DevicePorts::DevicePort& xDevicePort) {
AudioDevice device = {
.type = VALUE_OR_FATAL(convertDeviceTypeToAidl(xDevicePort.getType())),
.address = xDevicePort.hasAddress()
? AudioDeviceAddress::make<AudioDeviceAddress::Tag::id>(
xDevicePort.getAddress())
: AudioDeviceAddress{}};
if (device.type.type == AudioDeviceType::IN_MICROPHONE && device.type.connection.empty()) {
device.address = "bottom";
} else if (device.type.type == AudioDeviceType::IN_MICROPHONE_BACK &&
device.type.connection.empty()) {
device.address = "back";
}
return device;
}
ConversionResult<AudioPortExt> createAudioPortExt(
const ap_xsd::DevicePorts::DevicePort& xDevicePort,
const std::string& xDefaultOutputDevice) {
AudioPortDeviceExt deviceExt = {
.device = VALUE_OR_FATAL(createAudioDevice(xDevicePort)),
.flags = (xDevicePort.getTagName() == xDefaultOutputDevice)
? 1 << AudioPortDeviceExt::FLAG_INDEX_DEFAULT_DEVICE
: 0,
.encodedFormats =
xDevicePort.hasEncodedFormats()
? VALUE_OR_FATAL(
(convertCollectionToAidl<std::string, AudioFormatDescription>(
xDevicePort.getEncodedFormats(),
&convertAudioFormatToAidl)))
: std::vector<AudioFormatDescription>{},
};
return AudioPortExt::make<AudioPortExt::Tag::device>(deviceExt);
}
ConversionResult<AudioPortExt> createAudioPortExt(const ap_xsd::MixPorts::MixPort& xMixPort) {
AudioPortMixExt mixExt = {
.maxOpenStreamCount =
xMixPort.hasMaxOpenCount() ? static_cast<int>(xMixPort.getMaxOpenCount()) : 0,
.maxActiveStreamCount = xMixPort.hasMaxActiveCount()
? static_cast<int>(xMixPort.getMaxActiveCount())
: 1,
.recommendedMuteDurationMs =
xMixPort.hasRecommendedMuteDurationMs()
? static_cast<int>(xMixPort.getRecommendedMuteDurationMs())
: 0};
return AudioPortExt::make<AudioPortExt::Tag::mix>(mixExt);
}
ConversionResult<int> convertGainModeToAidl(const std::vector<ap_xsd::AudioGainMode>& gainModeVec) {
static const char gainModeSeparator = ' ';
int gainModeMask = 0;
for (const ap_xsd::AudioGainMode& gainMode : gainModeVec) {
gainModeMask |= static_cast<int>(::android::GainModeConverter::maskFromString(
ap_xsd::toString(gainMode), &gainModeSeparator));
}
return gainModeMask;
}
ConversionResult<AudioChannelLayout> convertChannelMaskToAidl(
const ap_xsd::AudioChannelMask& xChannelMask) {
std::string xChannelMaskLiteral = ap_xsd::toString(xChannelMask);
audio_channel_mask_t legacyChannelMask = ::android::channelMaskFromString(xChannelMaskLiteral);
ConversionResult<AudioChannelLayout> result =
legacy2aidl_audio_channel_mask_t_AudioChannelLayout(
legacyChannelMask,
/* isInput= */ xChannelMaskLiteral.find("AUDIO_CHANNEL_IN_") == 0);
if ((legacyChannelMask == AUDIO_CHANNEL_INVALID) || !result.ok()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: " << xChannelMaskLiteral
<< " is not a valid audio channel mask.";
return unexpected(BAD_VALUE);
}
return result;
}
ConversionResult<AudioGain> convertGainToAidl(const ap_xsd::Gains::Gain& xGain) {
return AudioGain{
.mode = VALUE_OR_FATAL(convertGainModeToAidl(xGain.getMode())),
.channelMask =
xGain.hasChannel_mask()
? VALUE_OR_FATAL(convertChannelMaskToAidl(xGain.getChannel_mask()))
: AudioChannelLayout{},
.minValue = xGain.hasMinValueMB() ? xGain.getMinValueMB() : 0,
.maxValue = xGain.hasMaxValueMB() ? xGain.getMaxValueMB() : 0,
.defaultValue = xGain.hasDefaultValueMB() ? xGain.getDefaultValueMB() : 0,
.stepValue = xGain.hasStepValueMB() ? xGain.getStepValueMB() : 0,
.minRampMs = xGain.hasMinRampMs() ? xGain.getMinRampMs() : 0,
.maxRampMs = xGain.hasMaxRampMs() ? xGain.getMaxRampMs() : 0,
.useForVolume = xGain.hasUseForVolume() ? xGain.getUseForVolume() : false,
};
}
ConversionResult<AudioProfile> convertAudioProfileToAidl(const ap_xsd::Profile& xProfile) {
return AudioProfile{
.format = xProfile.hasFormat()
? VALUE_OR_FATAL(convertAudioFormatToAidl(xProfile.getFormat()))
: AudioFormatDescription{},
.channelMasks =
xProfile.hasChannelMasks()
? VALUE_OR_FATAL((convertCollectionToAidl<ap_xsd::AudioChannelMask,
AudioChannelLayout>(
xProfile.getChannelMasks(), &convertChannelMaskToAidl)))
: std::vector<AudioChannelLayout>{},
.sampleRates = xProfile.hasSamplingRates()
? VALUE_OR_FATAL((convertCollectionToAidl<int64_t, int>(
xProfile.getSamplingRates(),
[](const int64_t x) -> int { return x; })))
: std::vector<int>{}};
}
ConversionResult<AudioIoFlags> convertIoFlagsToAidl(
const std::vector<ap_xsd::AudioInOutFlag>& flags, const ap_xsd::Role role,
bool flagsForMixPort) {
static const char flagSeparator = ' ';
int flagMask = 0;
if ((role == ap_xsd::Role::sink && flagsForMixPort) ||
(role == ap_xsd::Role::source && !flagsForMixPort)) {
for (const ap_xsd::AudioInOutFlag& flag : flags) {
flagMask |= static_cast<int>(::android::InputFlagConverter::maskFromString(
ap_xsd::toString(flag), &flagSeparator));
}
return AudioIoFlags::make<AudioIoFlags::Tag::input>(flagMask);
} else {
for (const ap_xsd::AudioInOutFlag& flag : flags) {
flagMask |= static_cast<int>(::android::OutputFlagConverter::maskFromString(
ap_xsd::toString(flag), &flagSeparator));
}
}
return AudioIoFlags::make<AudioIoFlags::Tag::output>(flagMask);
}
ConversionResult<AudioPort> convertDevicePortToAidl(
const ap_xsd::DevicePorts::DevicePort& xDevicePort, const std::string& xDefaultOutputDevice,
int32_t& nextPortId) {
return AudioPort{
.id = nextPortId++,
.name = NON_EMPTY_STRING_OR_FATAL(xDevicePort.getTagName()),
.profiles = VALUE_OR_FATAL((convertCollectionToAidl<ap_xsd::Profile, AudioProfile>(
xDevicePort.getProfile(), convertAudioProfileToAidl))),
.flags = VALUE_OR_FATAL(convertIoFlagsToAidl({}, xDevicePort.getRole(), false)),
.gains = VALUE_OR_FATAL(
(convertWrappedCollectionToAidl<ap_xsd::Gains, ap_xsd::Gains::Gain, AudioGain>(
xDevicePort.getGains(), &ap_xsd::Gains::getGain, convertGainToAidl))),
.ext = VALUE_OR_FATAL(createAudioPortExt(xDevicePort, xDefaultOutputDevice))};
}
ConversionResult<std::vector<AudioPort>> convertDevicePortsInModuleToAidl(
const ap_xsd::Modules::Module& xModuleConfig, int32_t& nextPortId) {
std::vector<AudioPort> audioPortVec;
std::vector<ap_xsd::DevicePorts> xDevicePortsVec = xModuleConfig.getDevicePorts();
if (xDevicePortsVec.size() > 1) {
LOG(ERROR) << __func__ << "Having multiple '<devicePorts>' elements is not allowed, found: "
<< xDevicePortsVec.size();
return unexpected(BAD_VALUE);
}
if (!xDevicePortsVec.empty()) {
const std::string xDefaultOutputDevice = xModuleConfig.hasDefaultOutputDevice()
? xModuleConfig.getDefaultOutputDevice()
: "";
audioPortVec.reserve(xDevicePortsVec[0].getDevicePort().size());
for (const ap_xsd::DevicePorts& xDevicePortsType : xDevicePortsVec) {
for (const ap_xsd::DevicePorts::DevicePort& xDevicePort :
xDevicePortsType.getDevicePort()) {
audioPortVec.push_back(VALUE_OR_FATAL(
convertDevicePortToAidl(xDevicePort, xDefaultOutputDevice, nextPortId)));
}
}
}
const std::unordered_set<std::string> xAttachedDeviceSet = getAttachedDevices(xModuleConfig);
for (const auto& port : audioPortVec) {
const auto& devicePort = port.ext.get<AudioPortExt::device>();
if (xAttachedDeviceSet.count(port.name) != devicePort.device.type.connection.empty()) {
LOG(ERROR) << __func__ << ": Review Audio Policy config: <attachedDevices> "
<< "list is incorrect or devicePort \"" << port.name
<< "\" type= " << devicePort.device.type.toString() << " is incorrect.";
return unexpected(BAD_VALUE);
}
}
return audioPortVec;
}
ConversionResult<AudioPort> convertMixPortToAidl(const ap_xsd::MixPorts::MixPort& xMixPort,
int32_t& nextPortId) {
return AudioPort{
.id = nextPortId++,
.name = NON_EMPTY_STRING_OR_FATAL(xMixPort.getName()),
.profiles = VALUE_OR_FATAL((convertCollectionToAidl<ap_xsd::Profile, AudioProfile>(
xMixPort.getProfile(), convertAudioProfileToAidl))),
.flags = xMixPort.hasFlags()
? VALUE_OR_FATAL(convertIoFlagsToAidl(xMixPort.getFlags(),
xMixPort.getRole(), true))
: VALUE_OR_FATAL(convertIoFlagsToAidl({}, xMixPort.getRole(), true)),
.gains = VALUE_OR_FATAL(
(convertWrappedCollectionToAidl<ap_xsd::Gains, ap_xsd::Gains::Gain, AudioGain>(
xMixPort.getGains(), &ap_xsd::Gains::getGain, &convertGainToAidl))),
.ext = VALUE_OR_FATAL(createAudioPortExt(xMixPort)),
};
}
ConversionResult<std::vector<AudioPort>> convertMixPortsInModuleToAidl(
const ap_xsd::Modules::Module& xModuleConfig, int32_t& nextPortId) {
std::vector<AudioPort> audioPortVec;
std::vector<ap_xsd::MixPorts> xMixPortsVec = xModuleConfig.getMixPorts();
if (xMixPortsVec.size() > 1) {
LOG(ERROR) << __func__ << "Having multiple '<mixPorts>' elements is not allowed, found: "
<< xMixPortsVec.size();
return unexpected(BAD_VALUE);
}
if (!xMixPortsVec.empty()) {
audioPortVec.reserve(xMixPortsVec[0].getMixPort().size());
for (const ap_xsd::MixPorts& xMixPortsType : xMixPortsVec) {
for (const ap_xsd::MixPorts::MixPort& xMixPort : xMixPortsType.getMixPort()) {
audioPortVec.push_back(VALUE_OR_FATAL(convertMixPortToAidl(xMixPort, nextPortId)));
}
}
}
return audioPortVec;
}
ConversionResult<int32_t> getSinkPortId(const ap_xsd::Routes::Route& xRoute,
const std::unordered_map<std::string, int32_t>& portMap) {
auto portMapIter = portMap.find(xRoute.getSink());
if (portMapIter == portMap.end()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: audio route"
<< "has sink: " << xRoute.getSink()
<< " which is neither a device port nor mix port.";
return unexpected(BAD_VALUE);
}
return portMapIter->second;
}
ConversionResult<std::vector<int32_t>> getSourcePortIds(
const ap_xsd::Routes::Route& xRoute,
const std::unordered_map<std::string, int32_t>& portMap) {
std::vector<int32_t> sourcePortIds;
for (const std::string& rawSource : ::android::base::Split(xRoute.getSources(), ",")) {
const std::string source = ::android::base::Trim(rawSource);
auto portMapIter = portMap.find(source);
if (portMapIter == portMap.end()) {
LOG(ERROR) << __func__ << " Review Audio Policy config: audio route"
<< "has source \"" << source
<< "\" which is neither a device port nor mix port.";
return unexpected(BAD_VALUE);
}
sourcePortIds.push_back(portMapIter->second);
}
return sourcePortIds;
}
ConversionResult<AudioRoute> convertRouteToAidl(const ap_xsd::Routes::Route& xRoute,
const std::vector<AudioPort>& aidlAudioPorts) {
std::unordered_map<std::string, int32_t> portMap;
for (const AudioPort& port : aidlAudioPorts) {
portMap.insert({port.name, port.id});
}
return AudioRoute{.sourcePortIds = VALUE_OR_FATAL(getSourcePortIds(xRoute, portMap)),
.sinkPortId = VALUE_OR_FATAL(getSinkPortId(xRoute, portMap)),
.isExclusive = (xRoute.getType() == ap_xsd::MixType::mux)};
}
ConversionResult<std::vector<AudioRoute>> convertRoutesInModuleToAidl(
const ap_xsd::Modules::Module& xModuleConfig,
const std::vector<AudioPort>& aidlAudioPorts) {
std::vector<AudioRoute> audioRouteVec;
std::vector<ap_xsd::Routes> xRoutesVec = xModuleConfig.getRoutes();
if (!xRoutesVec.empty()) {
/*
* xRoutesVec likely only contains one element; that is, it's
* likely that all ap_xsd::Routes::MixPort types that we need to convert
* are inside of xRoutesVec[0].
*/
audioRouteVec.reserve(xRoutesVec[0].getRoute().size());
for (const ap_xsd::Routes& xRoutesType : xRoutesVec) {
for (const ap_xsd::Routes::Route& xRoute : xRoutesType.getRoute()) {
audioRouteVec.push_back(VALUE_OR_FATAL(convertRouteToAidl(xRoute, aidlAudioPorts)));
}
}
}
return audioRouteVec;
}
ConversionResult<std::unique_ptr<Module::Configuration>> convertModuleConfigToAidl(
const ap_xsd::Modules::Module& xModuleConfig) {
auto result = std::make_unique<Module::Configuration>();
auto& aidlModuleConfig = *result;
std::vector<AudioPort> devicePorts = VALUE_OR_FATAL(
convertDevicePortsInModuleToAidl(xModuleConfig, aidlModuleConfig.nextPortId));
// The XML config does not specify the default input device.
// Assign the first attached input device as the default.
for (auto& port : devicePorts) {
if (port.flags.getTag() != AudioIoFlags::input) continue;
auto& deviceExt = port.ext.get<AudioPortExt::device>();
if (!deviceExt.device.type.connection.empty()) continue;
deviceExt.flags |= 1 << AudioPortDeviceExt::FLAG_INDEX_DEFAULT_DEVICE;
break;
}
std::vector<AudioPort> mixPorts = VALUE_OR_FATAL(
convertMixPortsInModuleToAidl(xModuleConfig, aidlModuleConfig.nextPortId));
aidlModuleConfig.ports.reserve(devicePorts.size() + mixPorts.size());
aidlModuleConfig.ports.insert(aidlModuleConfig.ports.end(), devicePorts.begin(),
devicePorts.end());
aidlModuleConfig.ports.insert(aidlModuleConfig.ports.end(), mixPorts.begin(), mixPorts.end());
aidlModuleConfig.routes =
VALUE_OR_FATAL(convertRoutesInModuleToAidl(xModuleConfig, aidlModuleConfig.ports));
return result;
}
ConversionResult<AudioHalCapCriterion> convertCapCriterionToAidl(
const eng_xsd::CriterionType& xsdcCriterion) {
AudioHalCapCriterion aidlCapCriterion;
aidlCapCriterion.name = xsdcCriterion.getName();
aidlCapCriterion.criterionTypeName = xsdcCriterion.getType();
aidlCapCriterion.defaultLiteralValue = xsdcCriterion.get_default();
return aidlCapCriterion;
}
ConversionResult<std::string> convertCriterionTypeValueToAidl(
const eng_xsd::ValueType& xsdcCriterionTypeValue) {
return xsdcCriterionTypeValue.getLiteral();
}
ConversionResult<AudioHalCapCriterionType> convertCapCriterionTypeToAidl(
const eng_xsd::CriterionTypeType& xsdcCriterionType) {
AudioHalCapCriterionType aidlCapCriterionType;
aidlCapCriterionType.name = xsdcCriterionType.getName();
aidlCapCriterionType.isInclusive = !(static_cast<bool>(xsdcCriterionType.getType()));
aidlCapCriterionType.values = VALUE_OR_RETURN(
(convertWrappedCollectionToAidl<eng_xsd::ValuesType, eng_xsd::ValueType, std::string>(
xsdcCriterionType.getValues(), &eng_xsd::ValuesType::getValue,
&convertCriterionTypeValueToAidl)));
return aidlCapCriterionType;
}
ConversionResult<AudioHalVolumeCurve::CurvePoint> convertCurvePointToAidl(
const std::string& xsdcCurvePoint) {
AudioHalVolumeCurve::CurvePoint aidlCurvePoint{};
if ((sscanf(xsdcCurvePoint.c_str(), "%" SCNd8 ",%d", &aidlCurvePoint.index,
&aidlCurvePoint.attenuationMb) != 2) ||
(aidlCurvePoint.index < AudioHalVolumeCurve::CurvePoint::MIN_INDEX) ||
(aidlCurvePoint.index > AudioHalVolumeCurve::CurvePoint::MAX_INDEX)) {
LOG(ERROR) << __func__ << " Review Audio Policy config: volume curve point:"
<< "\"" << xsdcCurvePoint << "\" is invalid";
return unexpected(BAD_VALUE);
}
return aidlCurvePoint;
}
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -9,17 +9,6 @@
<version>1</version>
<fqname>IModule/r_submix</fqname>
</hal>
<hal format="aidl">
<name>android.hardware.audio.core</name>
<version>1</version>
<fqname>IModule/bluetooth</fqname>
</hal>
<hal format="aidl">
<name>android.hardware.audio.core</name>
<version>1</version>
<fqname>IConfig/default</fqname>
</hal>
<!-- Uncomment when these modules present in the configuration
<hal format="aidl">
<name>android.hardware.audio.core</name>
<version>1</version>
@ -30,5 +19,14 @@
<version>1</version>
<fqname>IModule/usb</fqname>
</hal>
-->
<hal format="aidl">
<name>android.hardware.audio.core</name>
<version>1</version>
<fqname>IModule/bluetooth</fqname>
</hal>
<hal format="aidl">
<name>android.hardware.audio.core</name>
<version>1</version>
<fqname>IConfig/default</fqname>
</hal>
</manifest>

View file

@ -85,6 +85,16 @@ package android.audio.policy.configuration {
enum_constant public static final android.audio.policy.configuration.AudioChannelMask AUDIO_CHANNEL_OUT_TRI_BACK;
}
public enum AudioContentType {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_MOVIE;
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_MUSIC;
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_SONIFICATION;
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_SPEECH;
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_ULTRASOUND;
enum_constant public static final android.audio.policy.configuration.AudioContentType AUDIO_CONTENT_TYPE_UNKNOWN;
}
public enum AudioDevice {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.AudioDevice AUDIO_DEVICE_IN_AMBIENT;
@ -158,6 +168,13 @@ package android.audio.policy.configuration {
enum_constant public static final android.audio.policy.configuration.AudioDevice AUDIO_DEVICE_OUT_WIRED_HEADSET;
}
public enum AudioEncapsulationType {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.AudioEncapsulationType AUDIO_ENCAPSULATION_TYPE_IEC61937;
enum_constant public static final android.audio.policy.configuration.AudioEncapsulationType AUDIO_ENCAPSULATION_TYPE_NONE;
enum_constant public static final android.audio.policy.configuration.AudioEncapsulationType AUDIO_ENCAPSULATION_TYPE_PCM;
}
public enum AudioFormat {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.AudioFormat AUDIO_FORMAT_AAC;
@ -342,6 +359,29 @@ package android.audio.policy.configuration {
enum_constant public static final android.audio.policy.configuration.AudioStreamType AUDIO_STREAM_VOICE_CALL;
}
public enum AudioUsage {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ALARM;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ANNOUNCEMENT;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ASSISTANCE_ACCESSIBILITY;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ASSISTANCE_SONIFICATION;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_ASSISTANT;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_CALL_ASSISTANT;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_EMERGENCY;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_GAME;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_MEDIA;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_NOTIFICATION;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_NOTIFICATION_EVENT;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_NOTIFICATION_TELEPHONY_RINGTONE;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_SAFETY;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_UNKNOWN;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_VEHICLE_STATUS;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_VIRTUAL_SOURCE;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_VOICE_COMMUNICATION;
enum_constant public static final android.audio.policy.configuration.AudioUsage AUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING;
}
public enum DeviceCategory {
method @NonNull public String getRawName();
enum_constant public static final android.audio.policy.configuration.DeviceCategory DEVICE_CATEGORY_EARPIECE;
@ -395,6 +435,7 @@ package android.audio.policy.configuration {
method @Nullable public int getMinRampMs();
method @Nullable public int getMinValueMB();
method @Nullable public java.util.List<android.audio.policy.configuration.AudioGainMode> getMode();
method @Nullable public String getName();
method @Nullable public int getStepValueMB();
method @Nullable public boolean getUseForVolume();
method public void setChannel_mask(@Nullable android.audio.policy.configuration.AudioChannelMask);
@ -404,6 +445,7 @@ package android.audio.policy.configuration {
method public void setMinRampMs(@Nullable int);
method public void setMinValueMB(@Nullable int);
method public void setMode(@Nullable java.util.List<android.audio.policy.configuration.AudioGainMode>);
method public void setName(@Nullable String);
method public void setStepValueMB(@Nullable int);
method public void setUseForVolume(@Nullable boolean);
}
@ -436,6 +478,7 @@ package android.audio.policy.configuration {
method @Nullable public long getMaxActiveCount();
method @Nullable public long getMaxOpenCount();
method @Nullable public String getName();
method @Nullable public java.util.List<android.audio.policy.configuration.AudioUsage> getPreferredUsage();
method @Nullable public java.util.List<android.audio.policy.configuration.Profile> getProfile();
method @Nullable public long getRecommendedMuteDurationMs();
method @Nullable public android.audio.policy.configuration.Role getRole();
@ -444,6 +487,7 @@ package android.audio.policy.configuration {
method public void setMaxActiveCount(@Nullable long);
method public void setMaxOpenCount(@Nullable long);
method public void setName(@Nullable String);
method public void setPreferredUsage(@Nullable java.util.List<android.audio.policy.configuration.AudioUsage>);
method public void setRecommendedMuteDurationMs(@Nullable long);
method public void setRole(@Nullable android.audio.policy.configuration.Role);
}
@ -480,10 +524,14 @@ package android.audio.policy.configuration {
public class Profile {
ctor public Profile();
method @Nullable public java.util.List<android.audio.policy.configuration.AudioChannelMask> getChannelMasks();
method @Nullable public android.audio.policy.configuration.AudioEncapsulationType getEncapsulationType();
method @Nullable public String getFormat();
method @Nullable public String getName();
method @Nullable public java.util.List<java.math.BigInteger> getSamplingRates();
method public void setChannelMasks(@Nullable java.util.List<android.audio.policy.configuration.AudioChannelMask>);
method public void setEncapsulationType(@Nullable android.audio.policy.configuration.AudioEncapsulationType);
method public void setFormat(@Nullable String);
method public void setName(@Nullable String);
method public void setSamplingRates(@Nullable java.util.List<java.math.BigInteger>);
}

View file

@ -217,6 +217,20 @@
<xs:attribute name="flags" type="audioInOutFlags"/>
<xs:attribute name="maxOpenCount" type="xs:unsignedInt"/>
<xs:attribute name="maxActiveCount" type="xs:unsignedInt"/>
<xs:attribute name="preferredUsage" type="audioUsageList">
<xs:annotation>
<xs:documentation xml:lang="en">
When choosing the mixPort of an audio track, the audioPolicy
first considers the mixPorts with a preferredUsage including
the track AudioUsage preferred .
If non support the track format, the other mixPorts are considered.
Eg: a <mixPort preferredUsage="AUDIO_USAGE_MEDIA" /> will receive
the audio of all apps playing with a MEDIA usage.
It may receive audio from ALARM if there are no audio compatible
<mixPort preferredUsage="AUDIO_USAGE_ALARM" />.
</xs:documentation>
</xs:annotation>
</xs:attribute>
<xs:attribute name="recommendedMuteDurationMs" type="xs:unsignedInt"/>
</xs:complexType>
<xs:unique name="mixPortProfileUniqueness">
@ -420,6 +434,56 @@
<xs:simpleType name="extendableAudioFormat">
<xs:union memberTypes="audioFormat vendorExtension"/>
</xs:simpleType>
<xs:simpleType name="audioUsage">
<xs:annotation>
<xs:documentation xml:lang="en">
Audio usage specifies the intended use case for the sound being played.
Please consult frameworks/base/media/java/android/media/AudioAttributes.java
for the description of each value.
</xs:documentation>
</xs:annotation>
<xs:restriction base="xs:string">
<xs:enumeration value="AUDIO_USAGE_UNKNOWN" />
<xs:enumeration value="AUDIO_USAGE_MEDIA" />
<xs:enumeration value="AUDIO_USAGE_VOICE_COMMUNICATION" />
<xs:enumeration value="AUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING" />
<xs:enumeration value="AUDIO_USAGE_ALARM" />
<xs:enumeration value="AUDIO_USAGE_NOTIFICATION" />
<xs:enumeration value="AUDIO_USAGE_NOTIFICATION_TELEPHONY_RINGTONE" />
<xs:enumeration value="AUDIO_USAGE_NOTIFICATION_EVENT" />
<xs:enumeration value="AUDIO_USAGE_ASSISTANCE_ACCESSIBILITY" />
<xs:enumeration value="AUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE" />
<xs:enumeration value="AUDIO_USAGE_ASSISTANCE_SONIFICATION" />
<xs:enumeration value="AUDIO_USAGE_GAME" />
<xs:enumeration value="AUDIO_USAGE_VIRTUAL_SOURCE" />
<xs:enumeration value="AUDIO_USAGE_ASSISTANT" />
<xs:enumeration value="AUDIO_USAGE_CALL_ASSISTANT" />
<xs:enumeration value="AUDIO_USAGE_EMERGENCY" />
<xs:enumeration value="AUDIO_USAGE_SAFETY" />
<xs:enumeration value="AUDIO_USAGE_VEHICLE_STATUS" />
<xs:enumeration value="AUDIO_USAGE_ANNOUNCEMENT" />
</xs:restriction>
</xs:simpleType>
<xs:simpleType name="audioUsageList">
<xs:list itemType="audioUsage"/>
</xs:simpleType>
<xs:simpleType name="audioContentType">
<xs:annotation>
<xs:documentation xml:lang="en">
Audio content type expresses the general category of the content.
Please consult frameworks/base/media/java/android/media/AudioAttributes.java
for the description of each value.
</xs:documentation>
</xs:annotation>
<xs:restriction base="xs:string">
<xs:enumeration value="AUDIO_CONTENT_TYPE_UNKNOWN"/>
<xs:enumeration value="AUDIO_CONTENT_TYPE_SPEECH"/>
<xs:enumeration value="AUDIO_CONTENT_TYPE_MUSIC"/>
<xs:enumeration value="AUDIO_CONTENT_TYPE_MOVIE"/>
<xs:enumeration value="AUDIO_CONTENT_TYPE_SONIFICATION"/>
<xs:enumeration value="AUDIO_CONTENT_TYPE_ULTRASOUND"/>
</xs:restriction>
</xs:simpleType>
<xs:simpleType name="samplingRates">
<xs:list itemType="xs:nonNegativeInteger" />
</xs:simpleType>
@ -515,10 +579,19 @@
<xs:simpleType name="channelMasks">
<xs:list itemType="audioChannelMask" />
</xs:simpleType>
<xs:simpleType name="audioEncapsulationType">
<xs:restriction base="xs:string">
<xs:enumeration value="AUDIO_ENCAPSULATION_TYPE_NONE"/>
<xs:enumeration value="AUDIO_ENCAPSULATION_TYPE_IEC61937"/>
<xs:enumeration value="AUDIO_ENCAPSULATION_TYPE_PCM"/>
</xs:restriction>
</xs:simpleType>
<xs:complexType name="profile">
<xs:attribute name="name" type="xs:token" use="optional"/>
<xs:attribute name="format" type="extendableAudioFormat" use="optional"/>
<xs:attribute name="samplingRates" type="samplingRates" use="optional"/>
<xs:attribute name="channelMasks" type="channelMasks" use="optional"/>
<xs:attribute name="encapsulationType" type="audioEncapsulationType" use="optional"/>
</xs:complexType>
<xs:simpleType name="audioGainMode">
<xs:restriction base="xs:string">
@ -539,6 +612,7 @@
<xs:sequence>
<xs:element name="gain" minOccurs="0" maxOccurs="unbounded">
<xs:complexType>
<xs:attribute name="name" type="xs:token" use="required"/>
<xs:attribute name="mode" type="audioGainModeMask" use="required"/>
<xs:attribute name="channel_mask" type="audioChannelMask" use="optional"/>
<xs:attribute name="minValueMB" type="xs:int" use="optional"/>

View file

@ -16,42 +16,27 @@
#pragma once
#include <memory>
#include <optional>
#include <string>
#include <unordered_map>
#include <utility>
#include <vector>
#include <aidl/android/hardware/audio/core/SurroundSoundConfig.h>
#include <aidl/android/media/audio/common/AudioHalEngineConfig.h>
#include <android_audio_policy_configuration.h>
#include <android_audio_policy_configuration_enums.h>
#include <media/AidlConversionUtil.h>
#include "core-impl/Module.h"
#include "core-impl/XmlConverter.h"
namespace aidl::android::hardware::audio::core::internal {
class AudioPolicyConfigXmlConverter {
public:
using ModuleConfiguration = std::pair<std::string, std::unique_ptr<Module::Configuration>>;
using ModuleConfigs = std::vector<ModuleConfiguration>;
explicit AudioPolicyConfigXmlConverter(const std::string& configFilePath)
: mConverter(configFilePath, &::android::audio::policy::configuration::read) {
if (mConverter.getXsdcConfig()) {
init();
}
}
: mConverter(configFilePath, &::android::audio::policy::configuration::read) {}
std::string getError() const { return mConverter.getError(); }
::android::status_t getStatus() const { return mConverter.getStatus(); }
const ::aidl::android::media::audio::common::AudioHalEngineConfig& getAidlEngineConfig();
const SurroundSoundConfig& getSurroundSoundConfig();
std::unique_ptr<ModuleConfigs> releaseModuleConfigs();
// Public for testing purposes.
static const SurroundSoundConfig& getDefaultSurroundSoundConfig();
@ -62,13 +47,13 @@ class AudioPolicyConfigXmlConverter {
return mConverter.getXsdcConfig();
}
void addVolumeGroupstoEngineConfig();
void init();
void mapStreamToVolumeCurve(
const ::android::audio::policy::configuration::Volume& xsdcVolumeCurve);
void mapStreamsToVolumeCurves();
void parseVolumes();
ConversionResult<::aidl::android::media::audio::common::AudioHalVolumeCurve>
convertVolumeCurveToAidl(
::aidl::android::media::audio::common::AudioHalVolumeCurve::CurvePoint convertCurvePointToAidl(
const std::string& xsdcCurvePoint);
::aidl::android::media::audio::common::AudioHalVolumeCurve convertVolumeCurveToAidl(
const ::android::audio::policy::configuration::Volume& xsdcVolumeCurve);
::aidl::android::media::audio::common::AudioHalEngineConfig mAidlEngineConfig;
@ -78,7 +63,6 @@ class AudioPolicyConfigXmlConverter {
std::unordered_map<::android::audio::policy::configuration::AudioStreamType,
std::vector<::aidl::android::media::audio::common::AudioHalVolumeCurve>>
mStreamToVolumeCurvesMap;
std::unique_ptr<ModuleConfigs> mModuleConfigurations = std::make_unique<ModuleConfigs>();
};
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -42,16 +42,12 @@ struct ChildInterface : private std::pair<std::shared_ptr<C>, ndk::SpAIBinder> {
C* operator->() const { return this->first; }
// Use 'getInstance' when returning the interface instance.
std::shared_ptr<C> getInstance() {
(void)getBinder();
return this->first;
}
AIBinder* getBinder() {
if (this->second.get() == nullptr) {
this->second = this->first->asBinder();
AIBinder_setMinSchedulerPolicy(this->second.get(), SCHED_NORMAL,
ANDROID_PRIORITY_AUDIO);
}
return this->second.get();
return this->first;
}
};

View file

@ -26,16 +26,11 @@ namespace aidl::android::hardware::audio::core {
static const std::string kEngineConfigFileName = "audio_policy_engine_configuration.xml";
class Config : public BnConfig {
public:
explicit Config(internal::AudioPolicyConfigXmlConverter& apConverter)
: mAudioPolicyConverter(apConverter) {}
private:
ndk::ScopedAStatus getSurroundSoundConfig(SurroundSoundConfig* _aidl_return) override;
ndk::ScopedAStatus getEngineConfig(
aidl::android::media::audio::common::AudioHalEngineConfig* _aidl_return) override;
internal::AudioPolicyConfigXmlConverter& mAudioPolicyConverter;
internal::AudioPolicyConfigXmlConverter mAudioPolicyConverter{
::android::audio_get_audio_policy_config_file()};
internal::EngineConfigXmlConverter mEngConfigConverter{
::android::audio_find_readable_configuration_file(kEngineConfigFileName.c_str())};
};

View file

@ -16,12 +16,37 @@
#pragma once
#include <map>
#include <memory>
#include <vector>
#include "Module.h"
#include <aidl/android/hardware/audio/core/AudioPatch.h>
#include <aidl/android/hardware/audio/core/AudioRoute.h>
#include <aidl/android/media/audio/common/AudioPort.h>
#include <aidl/android/media/audio/common/AudioPortConfig.h>
#include <aidl/android/media/audio/common/MicrophoneInfo.h>
namespace aidl::android::hardware::audio::core::internal {
std::unique_ptr<Module::Configuration> getConfiguration(Module::Type moduleType);
struct Configuration {
std::vector<::aidl::android::media::audio::common::MicrophoneInfo> microphones;
std::vector<::aidl::android::media::audio::common::AudioPort> ports;
std::vector<::aidl::android::media::audio::common::AudioPortConfig> portConfigs;
std::vector<::aidl::android::media::audio::common::AudioPortConfig> initialConfigs;
// Port id -> List of profiles to use when the device port state is set to 'connected'
// in connection simulation mode.
std::map<int32_t, std::vector<::aidl::android::media::audio::common::AudioProfile>>
connectedProfiles;
std::vector<AudioRoute> routes;
std::vector<AudioPatch> patches;
int32_t nextPortId = 1;
int32_t nextPatchId = 1;
};
std::unique_ptr<Configuration> getPrimaryConfiguration();
std::unique_ptr<Configuration> getRSubmixConfiguration();
std::unique_ptr<Configuration> getStubConfiguration();
std::unique_ptr<Configuration> getUsbConfiguration();
std::unique_ptr<Configuration> getBluetoothConfiguration();
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -19,9 +19,10 @@
#include <string>
#include <unordered_map>
#include <utils/Errors.h>
#include <android_audio_policy_engine_configuration.h>
#include <android_audio_policy_engine_configuration_enums.h>
#include <media/AidlConversionUtil.h>
#include "core-impl/XmlConverter.h"
@ -48,24 +49,29 @@ class EngineConfigXmlConverter {
}
void init();
void initProductStrategyMap();
ConversionResult<::aidl::android::media::audio::common::AudioAttributes>
convertAudioAttributesToAidl(
::aidl::android::media::audio::common::AudioAttributes convertAudioAttributesToAidl(
const ::android::audio::policy::engine::configuration::AttributesType&
xsdcAudioAttributes);
ConversionResult<::aidl::android::media::audio::common::AudioHalAttributesGroup>
convertAttributesGroupToAidl(
::aidl::android::media::audio::common::AudioHalAttributesGroup convertAttributesGroupToAidl(
const ::android::audio::policy::engine::configuration::AttributesGroup&
xsdcAttributesGroup);
ConversionResult<::aidl::android::media::audio::common::AudioHalProductStrategy>
convertProductStrategyToAidl(const ::android::audio::policy::engine::configuration::
ProductStrategies::ProductStrategy& xsdcProductStrategy);
ConversionResult<int> convertProductStrategyNameToAidl(
const std::string& xsdcProductStrategyName);
ConversionResult<::aidl::android::media::audio::common::AudioHalVolumeCurve>
convertVolumeCurveToAidl(
::aidl::android::media::audio::common::AudioHalCapCriterion convertCapCriterionToAidl(
const ::android::audio::policy::engine::configuration::CriterionType& xsdcCriterion);
::aidl::android::media::audio::common::AudioHalCapCriterionType convertCapCriterionTypeToAidl(
const ::android::audio::policy::engine::configuration::CriterionTypeType&
xsdcCriterionType);
std::string convertCriterionTypeValueToAidl(
const ::android::audio::policy::engine::configuration::ValueType&
xsdcCriterionTypeValue);
::aidl::android::media::audio::common::AudioHalVolumeCurve::CurvePoint convertCurvePointToAidl(
const std::string& xsdcCurvePoint);
::aidl::android::media::audio::common::AudioHalProductStrategy convertProductStrategyToAidl(
const ::android::audio::policy::engine::configuration::ProductStrategies::
ProductStrategy& xsdcProductStrategy);
int convertProductStrategyNameToAidl(const std::string& xsdcProductStrategyName);
::aidl::android::media::audio::common::AudioHalVolumeCurve convertVolumeCurveToAidl(
const ::android::audio::policy::engine::configuration::Volume& xsdcVolumeCurve);
ConversionResult<::aidl::android::media::audio::common::AudioHalVolumeGroup>
convertVolumeGroupToAidl(
::aidl::android::media::audio::common::AudioHalVolumeGroup convertVolumeGroupToAidl(
const ::android::audio::policy::engine::configuration::VolumeGroupsType::VolumeGroup&
xsdcVolumeGroup);

View file

@ -19,51 +19,31 @@
#include <iostream>
#include <map>
#include <memory>
#include <optional>
#include <set>
#include <aidl/android/hardware/audio/core/BnModule.h>
#include "core-impl/ChildInterface.h"
#include "core-impl/Configuration.h"
#include "core-impl/Stream.h"
namespace aidl::android::hardware::audio::core {
class Module : public BnModule {
public:
struct Configuration {
std::vector<::aidl::android::media::audio::common::MicrophoneInfo> microphones;
std::vector<::aidl::android::media::audio::common::AudioPort> ports;
std::vector<::aidl::android::media::audio::common::AudioPortConfig> portConfigs;
std::vector<::aidl::android::media::audio::common::AudioPortConfig> initialConfigs;
// Port id -> List of profiles to use when the device port state is set to 'connected'
// in connection simulation mode.
std::map<int32_t, std::vector<::aidl::android::media::audio::common::AudioProfile>>
connectedProfiles;
std::vector<AudioRoute> routes;
std::vector<AudioPatch> patches;
int32_t nextPortId = 1;
int32_t nextPatchId = 1;
};
// This value is used for all AudioPatches and reported by all streams.
static constexpr int32_t kLatencyMs = 10;
enum Type : int { DEFAULT, R_SUBMIX, STUB, USB, BLUETOOTH };
enum BtInterface : int { BTCONF, BTA2DP, BTLE };
static std::shared_ptr<Module> createInstance(Type type);
explicit Module(Type type) : mType(type) {}
typedef std::tuple<std::weak_ptr<IBluetooth>, std::weak_ptr<IBluetoothA2dp>,
std::weak_ptr<IBluetoothLe>>
BtProfileHandles;
// This value is used by default for all AudioPatches and reported by all streams.
static constexpr int32_t kLatencyMs = 10;
static std::shared_ptr<Module> createInstance(Type type) {
return createInstance(type, std::make_unique<Configuration>());
}
static std::shared_ptr<Module> createInstance(Type type,
std::unique_ptr<Configuration>&& config);
static std::optional<Type> typeFromString(const std::string& type);
Module(Type type, std::unique_ptr<Configuration>&& config)
: mType(type), mConfig(std::move(config)) {}
protected:
// The vendor extension done via inheritance can override interface methods and augment
// a call to the base implementation.
@ -168,7 +148,7 @@ class Module : public BnModule {
using Patches = std::multimap<int32_t, int32_t>;
const Type mType;
std::unique_ptr<Configuration> mConfig;
std::unique_ptr<internal::Configuration> mConfig;
ModuleDebug mDebug;
VendorDebug mVendorDebug;
ConnectedDevicePorts mConnectedDevicePorts;
@ -207,7 +187,7 @@ class Module : public BnModule {
const ::aidl::android::media::audio::common::AudioPort& audioPort, bool connected);
virtual ndk::ScopedAStatus onMasterMuteChanged(bool mute);
virtual ndk::ScopedAStatus onMasterVolumeChanged(float volume);
virtual std::unique_ptr<Configuration> initializeConfig();
virtual std::unique_ptr<internal::Configuration> initializeConfig();
// Utility and helper functions accessible to subclasses.
ndk::ScopedAStatus bluetoothParametersUpdated();
@ -224,7 +204,7 @@ class Module : public BnModule {
int32_t in_portConfigId, ::aidl::android::media::audio::common::AudioPort** port);
std::vector<AudioRoute*> getAudioRoutesForAudioPortImpl(int32_t portId);
virtual BtProfileHandles getBtProfileManagerHandles();
Configuration& getConfig();
internal::Configuration& getConfig();
const ConnectedDevicePorts& getConnectedDevicePorts() const { return mConnectedDevicePorts; }
bool getMasterMute() const { return mMasterMute; }
bool getMasterVolume() const { return mMasterVolume; }

View file

@ -27,8 +27,7 @@ namespace aidl::android::hardware::audio::core {
// provide necessary overrides for all interface methods omitted here.
class ModuleAlsa : public Module {
public:
ModuleAlsa(Type type, std::unique_ptr<Configuration>&& config)
: Module(type, std::move(config)) {}
explicit ModuleAlsa(Module::Type type) : Module(type) {}
protected:
// Extension methods of 'Module'.

View file

@ -23,8 +23,7 @@ namespace aidl::android::hardware::audio::core {
class ModuleBluetooth final : public Module {
public:
ModuleBluetooth(std::unique_ptr<Configuration>&& config)
: Module(Type::BLUETOOTH, std::move(config)) {}
ModuleBluetooth() : Module(Type::BLUETOOTH) {}
private:
BtProfileHandles getBtProfileManagerHandles() override;

View file

@ -22,8 +22,7 @@ namespace aidl::android::hardware::audio::core {
class ModulePrimary final : public Module {
public:
ModulePrimary(std::unique_ptr<Configuration>&& config)
: Module(Type::DEFAULT, std::move(config)) {}
ModulePrimary() : Module(Type::DEFAULT) {}
protected:
ndk::ScopedAStatus getTelephony(std::shared_ptr<ITelephony>* _aidl_return) override;

View file

@ -22,8 +22,7 @@ namespace aidl::android::hardware::audio::core {
class ModuleRemoteSubmix : public Module {
public:
ModuleRemoteSubmix(std::unique_ptr<Configuration>&& config)
: Module(Type::R_SUBMIX, std::move(config)) {}
ModuleRemoteSubmix() : Module(Type::R_SUBMIX) {}
private:
// IModule interfaces

View file

@ -22,7 +22,7 @@ namespace aidl::android::hardware::audio::core {
class ModuleStub final : public Module {
public:
ModuleStub(std::unique_ptr<Configuration>&& config) : Module(Type::STUB, std::move(config)) {}
ModuleStub() : Module(Type::STUB) {}
protected:
ndk::ScopedAStatus getBluetooth(std::shared_ptr<IBluetooth>* _aidl_return) override;

View file

@ -22,7 +22,7 @@ namespace aidl::android::hardware::audio::core {
class ModuleUsb final : public ModuleAlsa {
public:
ModuleUsb(std::unique_ptr<Configuration>&& config) : ModuleAlsa(Type::USB, std::move(config)) {}
ModuleUsb() : ModuleAlsa(Type::USB) {}
private:
// IModule interfaces

View file

@ -22,6 +22,7 @@
#include <media/AidlConversionUtil.h>
#include <system/audio_config.h>
#include <utils/Errors.h>
namespace aidl::android::hardware::audio::core::internal {
@ -84,10 +85,10 @@ class XmlConverter {
* </Modules>
*/
template <typename W, typename X, typename A>
static ConversionResult<std::vector<A>> convertWrappedCollectionToAidl(
std::vector<A> convertWrappedCollectionToAidlUnchecked(
const std::vector<W>& xsdcWrapperTypeVec,
std::function<const std::vector<X>&(const W&)> getInnerTypeVec,
std::function<ConversionResult<A>(const X&)> convertToAidl) {
std::function<A(const X&)> convertToAidl) {
std::vector<A> resultAidlTypeVec;
if (!xsdcWrapperTypeVec.empty()) {
/*
@ -97,23 +98,21 @@ static ConversionResult<std::vector<A>> convertWrappedCollectionToAidl(
*/
resultAidlTypeVec.reserve(getInnerTypeVec(xsdcWrapperTypeVec[0]).size());
for (const W& xsdcWrapperType : xsdcWrapperTypeVec) {
for (const X& xsdcType : getInnerTypeVec(xsdcWrapperType)) {
resultAidlTypeVec.push_back(VALUE_OR_FATAL(convertToAidl(xsdcType)));
}
std::transform(getInnerTypeVec(xsdcWrapperType).begin(),
getInnerTypeVec(xsdcWrapperType).end(),
std::back_inserter(resultAidlTypeVec), convertToAidl);
}
}
return resultAidlTypeVec;
}
template <typename X, typename A>
static ConversionResult<std::vector<A>> convertCollectionToAidl(
const std::vector<X>& xsdcTypeVec,
std::function<ConversionResult<A>(const X&)> convertToAidl) {
std::vector<A> convertCollectionToAidlUnchecked(const std::vector<X>& xsdcTypeVec,
std::function<A(const X&)> itemConversion) {
std::vector<A> resultAidlTypeVec;
resultAidlTypeVec.reserve(xsdcTypeVec.size());
for (const X& xsdcType : xsdcTypeVec) {
resultAidlTypeVec.push_back(VALUE_OR_FATAL(convertToAidl(xsdcType)));
}
std::transform(xsdcTypeVec.begin(), xsdcTypeVec.end(), std::back_inserter(resultAidlTypeVec),
itemConversion);
return resultAidlTypeVec;
}

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@ -1,29 +0,0 @@
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <aidl/android/media/audio/common/AudioHalCapCriterion.h>
#include <aidl/android/media/audio/common/AudioHalCapCriterionType.h>
#include <aidl/android/media/audio/common/AudioHalVolumeCurve.h>
#include <aidl/android/media/audio/common/AudioPort.h>
#include <android_audio_policy_configuration.h>
#include <android_audio_policy_configuration_enums.h>
#include <android_audio_policy_engine_configuration.h>
#include <media/AidlConversionUtil.h>
#include "core-impl/Module.h"
namespace aidl::android::hardware::audio::core::internal {
ConversionResult<::aidl::android::media::audio::common::AudioHalCapCriterion>
convertCapCriterionToAidl(
const ::android::audio::policy::engine::configuration::CriterionType& xsdcCriterion);
ConversionResult<::aidl::android::media::audio::common::AudioHalCapCriterionType>
convertCapCriterionTypeToAidl(
const ::android::audio::policy::engine::configuration::CriterionTypeType&
xsdcCriterionType);
ConversionResult<::aidl::android::media::audio::common::AudioHalVolumeCurve::CurvePoint>
convertCurvePointToAidl(const std::string& xsdcCurvePoint);
ConversionResult<std::unique_ptr<Module::Configuration>> convertModuleConfigToAidl(
const ::android::audio::policy::configuration::Modules::Module& moduleConfig);
} // namespace aidl::android::hardware::audio::core::internal

View file

@ -16,51 +16,21 @@
#include <cstdlib>
#include <ctime>
#include <sstream>
#include <utility>
#include <vector>
#define LOG_TAG "AHAL_Main"
#include <android-base/logging.h>
#include <android-base/properties.h>
#include <android/binder_ibinder_platform.h>
#include <android/binder_manager.h>
#include <android/binder_process.h>
#include "core-impl/AudioPolicyConfigXmlConverter.h"
#include "core-impl/ChildInterface.h"
#include "core-impl/Config.h"
#include "core-impl/Module.h"
using aidl::android::hardware::audio::core::ChildInterface;
using aidl::android::hardware::audio::core::Config;
using aidl::android::hardware::audio::core::Module;
using aidl::android::hardware::audio::core::internal::AudioPolicyConfigXmlConverter;
namespace {
ChildInterface<Module> createModule(const std::string& name,
std::unique_ptr<Module::Configuration>&& config) {
ChildInterface<Module> result;
{
auto moduleType = Module::typeFromString(name);
if (!moduleType.has_value()) {
LOG(ERROR) << __func__ << ": module type \"" << name << "\" is not supported";
return result;
}
auto module = Module::createInstance(*moduleType, std::move(config));
if (module == nullptr) return result;
result = std::move(module);
}
const std::string moduleFqn = std::string().append(Module::descriptor).append("/").append(name);
binder_status_t status = AServiceManager_addService(result.getBinder(), moduleFqn.c_str());
if (status != STATUS_OK) {
LOG(ERROR) << __func__ << ": failed to register service for \"" << moduleFqn << "\"";
return ChildInterface<Module>();
}
return result;
};
} // namespace
int main() {
// Random values are used in the implementation.
@ -75,27 +45,29 @@ int main() {
// Guaranteed log for b/210919187 and logd_integration_test
LOG(INFO) << "Init for Audio AIDL HAL";
AudioPolicyConfigXmlConverter audioPolicyConverter{
::android::audio_get_audio_policy_config_file()};
// Make the default config service
auto config = ndk::SharedRefBase::make<Config>(audioPolicyConverter);
const std::string configFqn = std::string().append(Config::descriptor).append("/default");
auto config = ndk::SharedRefBase::make<Config>();
const std::string configName = std::string() + Config::descriptor + "/default";
binder_status_t status =
AServiceManager_addService(config->asBinder().get(), configFqn.c_str());
if (status != STATUS_OK) {
LOG(ERROR) << "failed to register service for \"" << configFqn << "\"";
}
AServiceManager_addService(config->asBinder().get(), configName.c_str());
CHECK_EQ(STATUS_OK, status);
// Make modules
std::vector<ChildInterface<Module>> moduleInstances;
auto configs(audioPolicyConverter.releaseModuleConfigs());
for (std::pair<std::string, std::unique_ptr<Module::Configuration>>& configPair : *configs) {
std::string name = configPair.first;
if (auto instance = createModule(name, std::move(configPair.second)); instance) {
moduleInstances.push_back(std::move(instance));
}
}
auto createModule = [](Module::Type type) {
auto module = Module::createInstance(type);
ndk::SpAIBinder moduleBinder = module->asBinder();
std::stringstream moduleName;
moduleName << Module::descriptor << "/" << type;
AIBinder_setMinSchedulerPolicy(moduleBinder.get(), SCHED_NORMAL, ANDROID_PRIORITY_AUDIO);
binder_status_t status =
AServiceManager_addService(moduleBinder.get(), moduleName.str().c_str());
CHECK_EQ(STATUS_OK, status);
return std::make_pair(module, moduleBinder);
};
auto modules = {createModule(Module::Type::DEFAULT), createModule(Module::Type::R_SUBMIX),
createModule(Module::Type::USB), createModule(Module::Type::STUB),
createModule(Module::Type::BLUETOOTH)};
(void)modules;
ABinderProcess_joinThreadPool();
return EXIT_FAILURE; // should not reach